Restart Sampling for Improving Generative Processes
by Yilun Xu, Mingyang Deng, Xiang Cheng, Yonglong Tian, Ziming Liu and Tommi S. Jaakkola
Generative processes that involve solving differential equations, such as diffusion models, frequently necessitate balancing speed and quality. ODE-based samplers are fast but plateau in performance while SDE-based samplers deliver higher sample quality at the cost of increased sampling time. We attribute this difference to sampling errors: ODE-samplers involve smaller discretization errors while stochasticity in SDE contracts accumulated errors. Based on these findings, we propose a novel sampling algorithm called Restart in order to better balance discretization errors and contraction.
Empirically, Restart sampler surpasses previous diffusion SDE and ODE samplers in both speed and accuracy. Restart not only outperforms the previous best SDE results, but also accelerates the sampling speed by 10-fold / 2-fold on CIFAR-10 / ImageNet
Results on Stable Diffusion v1.5:
The working directory for standard benchmarks is under ./benchmarks
CIFAR-10: Download the CIFAR-10 python version and convert to ZIP archive:
python dataset_tool.py --source=downloads/cifar10/cifar-10-python.tar.gz \
--dest=datasets/cifar10-32x32.zip
python fid.py ref --data=datasets/cifar10-32x32.zip --dest=fid-refs/cifar10-32x32.npz
ImageNet: Download the ImageNet Object Localization Challenge and convert to ZIP archive at 64x64 resolution:
python dataset_tool.py --source=downloads/imagenet/ILSVRC/Data/CLS-LOC/train \
--dest=datasets/imagenet-64x64.zip --resolution=64x64 --transform=center-crop
python fid.py ref --data=datasets/imagenet-64x64.zip --dest=fid-refs/imagenet-64x64.npz
Alternatively, you could consider downloading the FID statistics at CIFAR-10-FID and ImageNet-$64\times 64$-FID.
Please download the CIFAR-10 or ImageNet checkpoints from EDM repo or PFGM++ repo. For example,
Dataset | Method | Path |
---|---|---|
CIFAR-10 | VP unconditional | path |
CIFAR-10 | EDM unconditional | path |
CIFAR-10 | PFGM++ ( |
path |
ImageNet |
EDM conditional | path |
Generating a large number of images can be time-consuming; the workload can be distributed across multiple GPUs by launching the above command using torchrun
. Before generation, please make sure the checkpoint is downloaded in the ./benchmarks/imgs
folder
torchrun --standalone --nproc_per_node=8 generate_restart.py --outdir=./imgs \
--restart_info='{restart_config}' --S_min=0.01 --S_max=1 --S_noise 1.003 \
--steps={steps} --seeds=00000-49999 --name={name} (--pfgmpp=1) (--aug_dim={D})
restart_config: configuration for Restart (details below)
steps: number of steps in the main backward process, default=18
name: name of experiments (for FID evaluation)
pfgmpp: flag for using PFGM++
D: augmented dimension in PFGM++
The restart_info
is in the format of {"0": [3, 2, 0.06, 0.30]}
. Please refer to Table 3 (CIFAR-10) and Table5 (ImageNet-64) for detailed configuration. For example, on uncond. EDM cond. ImageNet-64, with NFE=203, FID=1.41, the command line is:
torchrun --standalone --nproc_per_node=8 generate_restart.py --outdir=./imgs \
--restart_info='{"0": [4, 1, 19.35, 40.79], "1": [4, 1, 1.09, 1.92], "2": [4, 5, 0.59, 1.09], "3": [4, 5, 0.30, 0.59], "4": [6, 6, 0.06, 0.30]}' --S_min=0.01 --S_max=1 --S_noise 1.003 \
--steps=36 --seeds=00000-49999 --name=imagenet_edm
We also provide the extentive Restart configurations in params_cifar10_vp.txt
, params_imagenet_edm.txt
, corresponding to Table 3 (CIFAR-10) and Table5 (ImageNet-64) respectively. Each line in these txt
is in the form of txt
files, please run
python3 hyperparams.py --dataset {dataset} --method {method}
dataset: cifar10 | imagenet
method: edm | vp | pfgmpp
The above sweeping will reproduce the results in the following figure (Fig 3 in the paper):
For FID evaluation, please run:
python fid.py ./imgs/imgs_{name} stats_path
name: name of experiments (specified in geneation command line)
stats_path: path to FID statistics, such as ./cifar10-32x32.npz or ./imagenet-64x64.npz
TODO: merge into the diffuser repo.
💡 Since we adopt the huggingface/diffuser repo, we keep all their structure and files. But we only apply Restart sampler in the /diffuser/diffusers/pipelines/stable_diffusion/pipeline_stable_diffusion.py
files. More exact pointer is Restart code block in Stable diffusion.
The working directory for standard benchmarks is under ./diffuser
-
Step 1: Follow the instruction on top of
data_process.py
-
Step 2: Run
python3 data_process.py
to randomly sampled 5K image-text pair from COCO validation set. -
Step 3: Calculate FID statistics
python fid_edm.py ref --data=path-to-coco-subset --dest=./coco.npz
torchrun --rdzv_endpoint=0.0.0.0:1201 --nproc_per_node=8 generate.py
--steps: number of sampling steps (default=50)
--scheduler: baseline method (DDIM | DDPM | Heun)
--save_path: path to save images
--w: classifier-guidance weight ({2,3,5,8})
--name: name of experiments
--restart
If you would like to visualize the images given prompt, run:
python3 visualization.py --prompt {prompt} --w {w} --steps {steps} --scheduler {scheduler} (--restart)
prompt: text prompt. defautlt='a photo of an astronaut riding a horse on mars'
steps: number of sampling steps (default=50)
scheduler: baseline method (DDIM | DDPM)
w: classifier-guidance weight ({2,3,5,8})
-
FID score
python3 fid.py {path} ./coco.npz path: path to the directory of generated image
-
Aesthetic score & CLIP score
python3 eval_clip_score.py --csv_path {path}/subset.csv --dir_path {path} path: path to the directory of generated image